Machine for making glass bottles



C. F. COX. MACHINE FOR MAKING GLASS BOTTLES. Armcmou FILED JUNE 4, 1912.

I0 SHEETS-SHEET I.

ATTORNEYS v C. F. COX. V MACHINE FOR MAKING GLASS BOTTLES.

APPLICATION FILED 1uNE4. 1912.

1,385,428. Patented Ju1y26,192i.

10 SHEETS-SHEET 2.

M (wy/www1? ATTORNEYS c. F. c ox. MACHINE FOR MAKING GLASS BOTTLES;

APPLICATION FILED JUNE 4| I9I2.

1,385,428. y Patented July 26,1921.

I 0 SHEETS-SHEET 3.

w/mfssfs I I /Wmmn 01m/m55 f 00x /wxomw B, L

ATTORNEYS I nu MNE-yg c. F`. cox.

MACHINE FOR MAKING GLASS BOTTLES.

APPLICATION FILED JUNE 4,1912.

1,385,428 Patented July 26, 1921.

l5 I0 SHEETS-SIIEET 4.

WTNESSES WIJK C. F. COX.

.MACHINE FOR MAKING GLASS BOTTLES.

APPLICATION FILED JUNE 4, 1912- P1,385,428, Y Patented July 26, 1921.

I0 SHEETS-SHEET 5.

C. F. COX.

MACHINE FOR MAKING GLASS BOTTLES.

APPLICATION FILED 1UNE4, 1912.

Patented muy 26, 1921 10 SHEETS-SHEET 6.

WTNESSES C. F. COX.

MACHINE FOR MAKING GLASS BOTTLES.

APPLICATION` FILED JUNE 4,1912.

Patented July 26,1921.

IN1/Enron .f3/mm 5' E cox WITNESSES c. F. Cox.

MACHINE FOR MAKING GLASS BOTTLES. APPLICATION FILED JUNE 4. 1912.

1,385,428. f Patemazulyz, 1921.

WITNESSES ggg c. F. cox. Y I -MACHINE FOR MAKING GLASS BOTTLES. APPLICATION FILED JUNE 4, |912.

1,385,428. Patented July 26, 1921.

l0 SHEETS-SHEET 9..

|99 ATTORNEYS C. F. COX. MACHINE ron MAKING GLAss Homes. i APPLICATION FILED JUNE 4| |912. 1,385,428. Patented July 26, 1921.

'0H/1mm E 00x MMS l i Arm/Mfrs ennuis r. cox, or Banamex, Naw Jnasny.

:lacrima ron ummm @Lisse Bomans.

speeiloation of Letters lrlatent. v Patented July 26. '1921.

Application led June 4, 1812. Serial No. 701,506.

To all whom it may concern.'

Be it known that I CHAnLns F. Cox, a citizen of the United States, and a resident of Bridgeton, county of Cumberland, and State of New Jersey, have invented certain new and useful Im rovements in Machines for Making Glass ttles, of Which'the following is a specification. v

inventlon relates to a machine `for maklng glass bottles of any desired form or size and to certain novel mechanical com binations in such a machine whereby are acof order, and positive and certain in its op complishedcertain novel modes of operation. More particularly my invention relates to mechanical combinations in a machine as aforesaid such that the machine will operate in a substantially automatic and continuous manner in carrying out all the various detailed operations necessary to the production of a finished bottle `and so` as to require substantially no attendancel otherthan that required to supply the 'machine with molten glass, to startthe machine, and to remove the'nished bottle.

The object of m shall be comparativel simple in its construction, thus being little liable to get out tion will appear as the-specification proceeds. Y

Bmef dampen-0f the meme.

r A brief general description of a preferred form of my invention and its mode of operation, will, perha s be helpful and conducive to a clearer un erstanding of the more detailed descriptionwhich follows later. 4

fBriefly considered, therefore, the machine o m a rame provided with a hollow central pillar; upon this frame, mounted so as to `wardly movable,

invention is tov rovde" a machine of the c aracter describe which have the same central axis butthese molds are invention comprises a main stationl revolve about therpillar, is a table upon` which are carried, s aced 90 apart, four 55 sets of bottle molds.. ach set of molds comprlses a neck mold, a blank mold, and a blow mold; the neck mold and blank mold are both fixed to a support which is adapted to be rotated about a horizontal axis extending radially from the pillar, while the blow mold 1s carried upon a support fixed to the table at a point radially outside the other two molds.

Attached, vertically in line with one another, to the main frame, is an. upper, downfinishing plunger for the bottom "of the blank; a lower, upwardly movable, "plunger for the neck of the blank; and aA fun-nel into which the molten glass, from which a bottle is to be produced, 1s inserted. The table, with the attached sets ot molds, 1s caused to be revolved by stepsfof 90, means being provided for locking the table against furthe-r revolution after each 90 step. The position of rest for the table is so chosen that a set of molds as above, the two plungers and the funnel, lare always in aA given radial plane.

All the mo ds of each set are sectional or split, the parts of each mold bein arranged to be laterally opened from lor c osed upon one another. Fora given set of molds thev blow mold and the blank mold when, closed so arranged that the blow mold must alwa s be open when the blank mold is closed, while when the blank moldis open the blow mold ma be closed. he table is rotated, the molds opened and closed and rotated, the plungers operatedand all theother incidental mechanical op-` erations later to be described are primarily eil'ected, by the use of compressed alr. Pipes for carr ing the airto the various parts of the mac ine, valves for alording the air an opportunity to actuate the various parts and for Acontrolling the sequence in which the various operations ymust be performed, and intermediate mechanismsl through whichl the air is caused to operate the various parts of the machine, are suitably attached to the frame of the machine and to the table. In assing from the upper side of the table to t e lower side therlo prefer to carry any necessary pipes t rough the hollow central pillar above referred to.

Vorfi `The set of molds'which, at any articular timerests in the radial plane of t e funnel and lplungers may be sald to be-at the first ing staton. At this station the neck mold and the blank mold are both closed and, taken as one mold, are inverted. i

In operation, molten glass is inserted into the funnel and, passing into the large end of the blank mold',1ills both the blank and neck molds. Generally, although not necessarily, suction is now applied at the neck mold to completel fill t e same with the molten glass. T e operator then depresses an ad- ]acent tripping lever which permitsthe air to' become effective. The following operations are then automatically erformed in properv sequence; shears close Just above the blank mold, cutting olf any excess of glass, and immediately reopen, upon which the upper plunger comes down upon the lass, pressing it down into the mold and ing simultaneouslyv rotated so las to give a finish to the bottom of the blank. Simultaneously the lower plunger, carrying the neck finishing head whichentersthe neck m'old, is rotated so. as to form and finish the interior of lthe neck. The plungers are then both withdrawn and, at the same time, the table is unlocked and then rotated. As the table rotates the neck and blank molds are rotated verticall so that when they arrive at the end of t e 90 step or at the second station, the bottle blank is upright. The blank mold is then opened -away from the blank and from the neck mold, from which the blank is now suspended, and the blow mold closed around the blank and upon the neck mold. As soon as the blow mold is closed, air is supplied to the neck portion of the blank, as a result of which lthe blank is thenblown out to iill the blow mold.

While these operations haveV been going I on at the second stationnthe operator, who

remains at the first station, has iilled the blank and neck mold of the set which, by the revolution of the table, has reached said first station. When he depresses the tripping lever for this second set of molds the table will again be revolved through 90 and the first set of molds will move from the second to the third station. At this third station the neck mold is opened. After a third set of molds has been filled by the operator, the table is again revolved and the first set of molds reaches the fourth station, where the blow mold is opened, when the inished bottle ma be removed. After the fourth lset of mol s has been filled, the iirst set will be brought back to the first station by the rotation of the table, and the neck and blank molds will be again closed and inverted scl as to be ready for another filling of molten ass. It [will be thus seenthat, in the normal use ofv 4my machine, there are always four bottles in the machine, at onetime, in different stages of manufacture and ythat complete bottles are produced without requiring anything of the operator except the filling of the molds as they successivel stop at the first station, the depressing o the tripping lever, and the removal of the completed product,

If have described my machine as having four sets of molds. I may, however, without departing from the spirit of my invention, use an increased number of sets of molds. The rate of production of ay given machine would not be thereby increased but the time during which each individual bottle is subjected to the manufacturing process would be lengthened.

Brief desmipion of the drawings.

Referrin now to the drawings which embody a pre erred form of my invention, Figure 1 represents a front elevation of the complete machine; Fig. 2 representsa side elevation, taken from the right, Fig. 1; Fig. 3 represents a top plan and section, taken along the line 3 3, Fig. 1; Fig. 4 repreelevation, taken along the line 7*- 7 of iig. v 6; Fig. ,8 represents a section, still further enlarged, taken through the mechanism for rotating the upper plunger and through a principal air valve along the line 8'-8 oi Fig. 6; Fig. 9 represents a section, part plan, on the same scale as Fig. 8, taken along the line 9-9 of Fig. 6 and showing the shears, its operating mechanism, and an associated air valve; Fi 10 represents a section taken along the line 10-10 of' Fig. 9; Fig. 11 represents a central vertical section showing in detail the 'construction of one of the stop-valves; Fig. 12 represents a top plan, part section, of a portion of the table as it appears at the first station with molds ready for a charge of glass; this same View appears as part of Fig. 3, but on a smaller scale. Fig. 13 represents a sectional elevation taken along the line 13-13, Fig. 12 and shows-the mechanism for opening and closing the blank molds; Fig. 14 represents an valve shown in Fig. 14; Fig- 16 represents a sectional elevation, to the same scale as i Fig. 18 represents a'plan view, taken from Fig. 13, taken along the line 16'l6 cf Fig. 3, and shows -some ofthe mechanism f or opening and closing the blow molds; Flg.

17 represents an end elevation of the struc-- ture shown innFig. 16 taken from the left;

. of anotherof t e stop-valves; Fig. 20 represents' a horizontal axial section throu h the air cylinder and piston which 'opens t el blow mold at the fourth station; Fig. 21 re resents, on a somewhat lar r scale than F1 Y. 16, atop lan view of t e central revo vilig valve; igs. 22, 23, 24 and 25 represent axial sections, through said revolvin valve, taken along the lines AB, CD, E

and AGv respectively ofl Fig. 21; Figs. 26, 27, 28, 29 and 30 represent horizontal sections, through said revolving valve, taken alon the lines I--I, JJ, K--K, -L-L and M respectively of Fig. 22; Fig. 3l represents a top 1an view, taken on about the samescale as Figs. 21 to 30, of the lower plunger and the means for revolving the same; Fig. 32'represents a sectional eleva; tion taken along the line 32-32, Fig. 31; Fig. 33 represents a view, part elevation a'nd part a section through the axis, of the cylinders and plstons used for revolving the ta-f ble, the scale being that of the immediately preceding figures; Fig. 34 similarly represents a topplan view ofthe main vacuum controlling valve and Fi 35 a section taken along .the line 35-35 of ig. 34; Fig-36 rep# resents an enlarged axial section., part elevation, through a bottom control valve which controls the lower plunger Fig. v37 represents a horizontal axial sectlon, to the same scale as Fig. 36, through the top control valve;

Fi s. 38 and 39 represent a top plan and sidge elevation, respectively, of the valve and casing therefor which controls the blowing of the bottle; Fig. 40 represents a section through said valve and casing taken along the line 40-40 of Fig. 39; Flgs. 41 and 42 similarly represent to plan and side elevation views respective y of the same valve and casing as positioned to control the vacuum in the neck mold during the filling of the neck and blank molds with .the initiall charge of molten glass; Fig. 43 represents a section through said valve and casing taken along the line 43--43 of Fig. 42; Fig. 44 represents anenlarged central vertical section, part elevation, of the table stop-pin taken along vthe line of the main air supply pipe, Fig. 4; Fig. 45 represents a. central vertical section through a modified form of bottom finishingy head as attached to the upper plunger, and 'a central 'vertical section the connections and to., be engaged head; andil 46 represents a 1an view taken from be ow of said modifie finishingA hea-d. Fig. 47 is a diagrammatic view of van upstanding hollow pillary 2;. the plat-` form is mounted u on wheels so that the machine may be easily moved from place to place, as e. g., from one furnace to another,

of a modified form f biel-1k mola @da ted f, by said modified finis ing principal operative fea A or for repairs. Mounted above the platform, and adapted to be revolved about the pillar, is a table 3 upon which are cari ried, spaced 90 apart, four sets of bottle molds each set of said molds comprises `a split or bipartite neck mold 4, a split blank mold 5, and a spilt blow mold 6. The neck lmold and blank mold are both fixed to a plate '7 at the end of a hollow drum 8 which drum, by reason of a gear 9 meshin with a segmental gear 10 fixed to the stationary frame of the machine, is adapted to be revolved about a radial' horizontal axis as the table is revolved about the pillar; the neck mold and lblank mold are respectivelyl vprovided with toggles and pistons 11, 12, the latter workin 1n Aappropriate cylinders, by means of whic said molds maybe independently4 opened' and closed about the two alined axes,13, 14. Openings 15, 16 (Fig. 13) lead respectively fromthe -rear of' the two cylinders through avertical revolving valve 17, later to be described, and passages 18, 19 (Fig. V12) lead from the front of said cylinders to' and through said valve. The blow mold 6, which, as stated reviously, is supported directlyfrom the table, is adapted to be opened and closed about anA axis 2() by means of rock shafts 21 which extend through and below the table, one for each sectionfof the mold, one arm fixed to Said shaft being joined by a link to the mold section and the other arm, which lies below the table, being attached to a slide 22 carrying a pin 23; at the second station, which this mold reaches while open, piston 24 (Figs. 16, 18) will be moved to theleft and through plate 25, carried by said piston, push slide 22 to the left so as to close the mold which will remain closed until, by the revolution of the table, it vreaches the fourth station, where piston 26 (Fig. 20) Y will be Vmoved to the left, thus engaglng button 27 with pin 23 and thereby opening. the mold.

Swung upon the axis 20, below the blow 'mold, is an arm 28 one end of which slidably supports-a spindle to the top of whichv iis fixed the mold bottom 29. A pivoted table'and'is adapted, justas the table is about to leave theffourth station, to engage a fixed. :arm 31 which rejects up from below the table so Vas to t rowv the mold bottom aside from bottleblowing to inoperative position. Since, however, even 1n its lowest osition,

the mold bottom will never be be ow the top of the hol ow pillar, carries a cylinder provided with a downwardly movable plunger33 the bottom4 of which' is tipped with a bottom finishin head 34; attached to lthe 'bottom lof the cy inder is a casing 35 containing two cylinders in one of which is a double pistoned spindle constituting a principal air valve 36 while the other lcylinder is yprovided with a piston 37 fixed upon a rod the outer endv of which is a rack 38 meshing :with a pinion 39 having a sliding but keyed fit upon the plunger 33. Casing is provided with a pipe connection opening centrally into the cylinder of air valve 36 and also into the cylinder of piston 37. Two

' other pipe' connections, 41, 42, symmetrically disposed to each side of connection 40,- open into the air valve cylinder only. A third pipe connection 43, opening into the air sitions ofrest.

valvel cylinder, lies at the inner end thereof.'

Piston 37 is spool-shaped with an inner head' 44 of greater diameter than its outer head 45; the cylinder in which this lpiston operates is correspondingly bored in two diameters. A pipe connect1on 46 opens into the'larger'bore justinside the cylinder head, while a passage 47 `leads from a point in the smaller bore, separated from the outer end thereof `by a distance just greater than the thickness of the smaller head 45, intol the air valve cylinder immediately adjacent its outer end.

. Fixed to the lower platform l below the table, with its axis in alinement with that of plunger 33, is a 1 cylinder provided with an upwardly movable plunger 48; the upper end of this plunger iscut down to provide a square sectioned plug, the tip of whichis centrally beveled,and has mounted upen` it a air of oppositely arranged centrally mova le jaws 49. l

A hole 50,'immediately below the `axis of the molds when closed, permits the plunger 48 tobe raised, through and above the table whenever the same is at one of its po- Four pipe connections open into the cylinder of plunger, viz., 51 atthe bottom, 52 just above thepiston when the latter is in its lowest position, 53 about midway between v 51 and 52, and 53 at the top.

In ahnement with the two plungers 33, 48, andjust above the table, is a spindle the top Vof which constitutes the neck finishing head 54.` This spindle is slidably supported just below the neck mold, in a mountin 55 attached to the plate 7. The lower en of the spindle has a peripheral-flange 56 and a. central bottom recess 57 `adapted-to receive the square plug of the lower plunger 48 while the jaws49 will close upon and grip the flange 56 under the inuence of spring 58 when the plunger 48 is raised suiliciently high. As with the upper plunger 33, so in the case of this lower plunger 48, the plunger ma be rotated through the operation of a rac formed upon a piston rod 59 carrying a piston 60 w ich moves in a cylinder 61 fixed to the cylinderof the loweri plunger 48, said racklbeing in mesh with a Jinion 62 having a sliding keyed fit upon saidl plunger.

Piston 60 and its cylinder 61 are constructed like piston 37 and its cylinder, and pipe connections 63 and 64 are similarly arranged.

Each revoluble plate 7 is held in locked position by means of a locking pin 65 cai'- ried by a iston 66 operable in a casing 67 bolted to t e table; a spring 68 tends to keep this pin pressed inwardly toward locking position. A pipe 69 from the central rotary valve 70, later to be described, enters the piston cylinder at its outer end while its inner end is pierced with an exhaust hole 71.

The revoluble table 3 is held in locked p0- sition by a stop pin 72 (Figs. 4, 44) vertically movable 1n a casing 73 bolted to the platform 1. This pin carries two pistons, 74 and 75, the former being spool-shaped and having two heads of equal diameter while the latter consists of but a single disk of smaller diameter than the heads of piston 74. Casing 73, for this double headed piston is comespondingly'bored in two diameters. A pipe connection 76 opens into the.

casing just below iston 74 when in its lowest position, Whi e another connection 77 opens between the two heads of istons 74 when in the same position. A t ird pipe connection 78 opens into the casing just at .the top of the larger bore and an exhaust 79 opens from about midway of said bore. i

To revolve the table 3 so as to carry the several .sets of molds from station to station there is employ'ed a tractor pin 8O (Figs. 4, 5) vertically slidable in a casing formed at the outer end of an arm 81 whose inner end constitutes a collar which embraces the pillar 2 and is adapted to be rotated there upon, beneath the table. Arm 81 is slotted at '82 and a block 83 slidably fitted therein; to the bottom of this block there is rotatably attached a second block 84 which is bored to constitute a collar and is keyed fast to a piston rod 85 carried by a piston 86 which latter is adapted to be reciprocated in cylinder 87. T he other end of piston rod 85 carries a piston 88 which moves in-an appropriate i cylinder and constitutes a dash Pipe connections 89, 90 and 91 open respectiv y into cylindei` 87 at the inner and outer ends and near the inner end.

A secondalpftpxlatform 92, supported from the bottom e overhanging arm 32, carries beneath it the shears which are used to cut ot the excess molten blank and neck molds are l ed, as will later be described. These shears comprise two o positely mov-able cutting blades 93, pivota ly mounted at 94, havin their inner ends f connected by links to a dip downwardly and then laterally to the ends of the cylinder bore as passages 101 and 102. Ball valves 103 and 104 are provided `for the control of these two passa Mounted upon the outer end o secondary i platform 92 is a small control casin 105 the upper part of which has a cylindrical bore 106 into which opens a pipe 107 the bottom of this bore is provided with a ball 108 andl a passage running beneath said ball which communicates with another pipe. 1 09. AA pin, 11.0, 'extends through the casing from the Vlower surface of sai ball and rests upon the outer Yend of a weighted tripping lever 111 pivoted to the casing at 112.

Y a small exhaust openingl 116.-

The other eiid of pipe 109 opens into'a cylindrically bored casing containing 4a small piston4 113 which has, pivoted to the` 1s piston is maintained normally in its ition by a spring 115. The Ftle'piston bore is provided with upxper en'd of its rod, a rocking lever 114. T

uppermost lower end o The rocking lever, which is pivoted to casing97 about midway of passages 101 and l102 cari-ies two pins 117, 118, which pass up throu h said passages and terminate beneath -said balls. ,These ins are` of such length that normally bal 104 is elevated above the opening of (passage 102 while ball 103 remains down an v,closes passage 10,1.

A .funnel 1219 is set in the secondary platform 92- in alinement withthe. mold axes when-at station 1 and just above the shears previously described.'

` Verticall slidable" in the axis o f the molds, an in a mounting 120 supported from the lower latformil, at station two, is4

a supporting spindle 121 which is employed to keep the Imold bottom 29 always against the bottom of the bottle as the latter is being blown, as will later be described. The

lass when the l.1, 2, 4, .the pillar two branch pipes,

' centralr rotary valve 70.

upper part of this spindle .is provided withopposite wings 122 adal ted to engage with 'correspondingslots cut in plate 25 from o psite sides of a longitudinal slot 123 cut inA the same plate. The lower part of the spindle is bored to receive a Asmall loosel `fitted button '124 -fixed to the top of a ro which .l I

terminates below .in a piston 125 which operates in a `cylinder 125 provided witha pipe opening at each end thereof.

A weighted balancing lever 127, pivotally supported from a bracket extension of `mounting 120,'ha's'one end assing into said mounting and there provided with a pin which passes transversely through spindle 121; the lever len'gth, the magnitude of the balancin weight, etc., are so adjusted that thel spin le tends normally to be lifted to its up vrmost position.

ounting55 is bored about. half way through from its inner side to constitute a.

recess into which the neck finishing head 54 may be and is withdrawn when not actually in use for finishing-a bottle neck; a spring 12.8 serves for this pur ose. Opening into the mounting at one si e of this recess is a passage 129 which makes'a rightangled turn and then runs toward the end of theA mounting where it opens into thebottom of a vertical branch 130 which itself opens into ka transverse passage 131 leading to a pipe 131. Theouter end of passage 129,'when the neck mold is closed and the neck finish-l ing .head in actual use, opens into an annular space in the neck mold surrounding said head.- `A ball 132 normally cuts oi communicatioii between passages 130 and 131.

'A by-passage 133 between passages 129 and 131 around ball 132 is kept normally closed by a spring-valve 134 ada ted to be opened by pressure upon a pin 1 5 which projects from one side of the mounting.`

The piping .system and associated devices.

As previously stated, m improved machine is primarily operate by compressed air. The piping system employed is as follows A main feed pipe 136, taking air -from any suitable pressure source, passes down through the hollow pillar 2 and 'oins stop pin casin 73 at connection 76 igs.

ust before this pipe enters 13 and 138, lead from it, the former to connection 99 of casing 97, being joined by branchvpipe 107 as it is about to enter said casing and thelatter to opening 139 (Figs. 21-30) of A'pipe 140 leads from connection 98 to connection 40; another pipe, 141, from connection 42, branches to an opening at the top 'of cylinder of'plunger 33, and down through illar v2 to connection 63 of c linder 61; a t irdpipe, 142, which leaves t e cylinder of plunger 33 from af point passes naar iggbottomfjgllvides into two branches,

' one ofivhich, 143,

of casing to an opening 151 at 'the bottom of cylinder of plunger 33.

The construction. of.v check valve 146, which is exactly the same as thatof valve 144, is shown in Fig. 11. In the former a short pipe 152 joins the lower or check side of the valve to pipe 141' while, in the latter valve a similar pipe joins the check side of the valve to a pipe 153 which itself joins pipe '145`to connectlon 41 ofcasing 35.

A second branch pipe 154 leaves pi 141,

just before the latter passes into an down i `joine by a wardly as vertical pipe 1 7'.

the pillar, and enters the left end of to -control valve 147 (Fig. 37). ,11

" From an f' opening near the left end of valve 147, a pipe` 155 leadsv down through pillar 2 and to top opening '78 ofstop pm @asin 7e; tra right end ef van@ 147 is pipe 156 also Passin through pillar 2, to connection 91 o cylin er 87.

A pipe 157 branches from p1 e 148 to one end of vacuum control valvef15 (Fig. 35) and `a pipe 157, from'. some `convenient vacuum source, opens into said valve about midwayf of itsends.' `Opening 77 Eof' 'top pin casing. 73, (Figs. 4, 44) takes a pipe 158 having branches as follows: 1591to right of c linder of piston 26 .(Fig. 20); 16o through7 valve 161 to bottom of cylinder of iston 125,l The front end 'of pi e 158 turns own- From the front of valvel161 a pipe 162 leads to pipe 163 which latter enters top opening 53' of cylinder o f plunger 48.

P i e 164, entering opening 52 of the same cy Inder, becomes 165 lead1ng to o ening v89 of cylinder 87 ;l a branch 166 runs rom pipe I 165 tothe left end of'cy'linder of piston 26.

Froml the rear of lvalve 161 a pipeV 167 connects with pipe 136; a branch 168 leads to pipe connection 64 of cylinder 61.

A pipe 169 branches from ip e 162A' and leads to the left opening-of cy inder of pis- 4ton.24;4 sub-branch 170 leads of cylinder-'of piston 125. From p1pe160 a branch 171 leads to checkvalve 172 (Fig. 9) and thence to opening 17 3 of cylinderof piston 24.

.A pipe l174 leads from pipe 160 up through hollow pillar2 and down to central rotary valve 70.

A pipe 175 leads from opening 53 of cylinder of plunger48to' opening 90 of c 11nvder\87; from pipe 175. a branch 176 eads to'a vertical pipe l177 which again branches y17. This fixed block is conicall -bottom control passage 194, bushing 184 and revolving bush- .120 r .y s into pipe 178 going to opening 51 of cylinder of plunger 48 and into pipe 179,- the lementary bushing 185 surrounding the First and fined to table 3 so as to revolve therewith.' Besides pipes 174, 138 (to opening 139), and 182 (to opening 183), a

vacuum tpipe 186 from vacuum control valve 157', an a pipe 186 (either from the main pressure source orfrom some independent pressure source) enter the top of the fixed ushing; this bushing is also provided with `small-exhaust openings 186, 1'86b and 186?.

From the bottom of the movable bushing 185, on each of the four sides thereof, four Short pipes, 187, 188, 189 and 190 connect with four passages 191, 192, 193 and 194 in a fixed block 195 of vertical revolving valve l recessed to receive a complementa-ry cone orming part of a revolving block 196 which constitutes the inner end of hollow drum 8.

. Passages 1'91, 192 and 194 open through the conical recess of block 195 while passage 193 o ens into an incomplete annular groove 197 -ormed in said recess. The revolving block,196 has two passages leadin from openings 15, 16 from'rear of neck an blank mold cylinders to the periphery of the com- -'plementary cone so as to register, when valve 17 is'in the position shown in Figs.

13, 14 and 15 with the groove 197. There are also two passa es leading from o nthe same position of the valve, but will register respectivel with the ends of passages .192 and- 191 w en block 196 has revolved through 180. Still'another passage forms a contmuation of pipe 131 (from mounting 55) and passes down the axis of the comple-v mentary cone to Ilend and emerge at itsl periphery so as to register with the' end or Thefixed ing 185 'of rotary valve' 70 are provided with axial and radial passages, and with more or less complete annular grooves for lthe passage of action and exhaust air in the operation of the machine as will later be described in greater detail'.

A bracket attached to vacuum control valve 157 carries a pivoted bell crank lever one arm of which is forked so as to embrace, between two pair of nuts fixed thereon, al

ton 198v while the remainin arm 199 is adapted to be struck by one o the four pins 200 of central valve 70, as the table 3 revolves from the fourth to the first. station,

so as to be thrust to one side, thus shifting piston 198 from one end of its cylinder to the other and providing free communication between pipes 157 and 186 through said cylinder.

Fixed to one of the hinge members of each blank mold 5 is -a wedge shaped cam 201, so arranged that, when the mold opens, it will revolve with the mold u on the axis 14 and engage the inner end o a spring retracted pin 202, fixed to the bracket supporting the axis, so as to push it outwardly against the resistance of its spring.

V At the second station, where the blank mold is thus opened, as will hereafter be seen, piu 202. will thereb be caused to engage and push downward against the resistance of a suitable spring, a second pin 203 which, as

it moves, depresses one end of lever 204 so as to raise its other'end and lift valve 205 thus opening communication between pipe 171 and the inner end of cylinder of pising 55. Stop pin 72 is up, e

ton 24. Operation of the machine.'

plun er 33 and lower plunger 48 are both..

up, t e latter engaged with ian s 56 and recess 57 so that neck" finishing ead 54 is in its topmost position inthe bore of mount locking table 3,

vMolten glass is now pic d up,'preferably withl a punty rod, and dropped into a funnel 119 so as to fill the neck and blank molds. The glass will be firmly compacted into the r 'neck mold by suction through passages 129,

`130, 131 and pipe 131 to vertical valve 17 through axial passage to and through passage 194 and pipe 190 to central valve 70; through passages 206 and 207 in said valve to pipe 186; and thence to and through vacuum valve 157 to vacuum pi e 157", the piston 198 of said valve having n thrown to the right so as to o en the valve as the molds passed from the ourth to the first station as has already been described.

To prevent the glass being cushioned by air asit fiows into the neck mold I form radial grooves upon the upper face of the neck finishing head between its central teat or indentor and its periphery.

Trippinglever 111 is now depressed,

b means of the punty rod, thus causing ball tripping lever 111 can return to its normal position the shear blades will open and pis'- ton 96 return to the left. Air will now pass through passage 102 across in front 'of piston 96, through pipe 140, through cylinder of air valve 36, opening 42 vand ipe 141, to top of cylinder of plunger 33 iP plunger` down so as to bring bottom finishing head 34 against the molten glass in the molds and compact the .same therein.` As soon as the piston of plunger 33 has passed the opening of plipe 142, air rushes into this pipe, through c4 eck valve 144 and pipe 143 to connection 46 at the end of cylinder of piston 37 forcing said piston to the right and rotatin bottom finishing head 34 upon vthe glass b ank so as to smooth and finish the same. (Air from connection 42 and pipe l152 keeps check valve 146 closed during this operation).

As piston 33 is forced down, piston 60,

orcing said which operates to rotate the lower plunger Ahand limit air from pipe 140 is enabled to pass through the cylinder of piston 37 and passage 47 to the right of piston of valve 36 so as to 4return said piston to its left end limit thus cutting oi air from opening 42 Aand pipe 141 but turning it into pipe `150 from .opening 41, openingcheck valve 1,46, and closing check valve 144 so as to cut off air through pipe 143 to piston 37. Air from ipe 140 to cylinder of piston 37 will now Ee able, by reason of'its .unequal pressure `upon the two iston heads, to return said piston to the le t; similarly, below the table, air will flow from main pipe 136 through pipes 167 and 168 to connection 64 of cylinder 61 and return piston 60 to its original position.

Air from pipe 150 will now enter openin 151 at the bottom of cylinder of plunger 3 and force it upward; as its piston `passes the opening of pipe 142 air wil again rush into this pipe, through check 'valve 146, and pipe` 145 to top control valve 147.

Air from pipe 141, besides depressing the upper plungerand rotating the lower plunger as )ust described, will also flow through branch pipe 154 to the end of the top control valve 147 and throw iston 208 to the right, so as to strike dou le headed valve "iso 50 above plunger 48 so as to force it down.

209 to the right, thus shutting ofi' any com-l municationr between pipes 145 `and 156, and

. will also return piston 208 to the left. Air

will then be able to pass freely through the valve from pipe 145 to pipe 155, down' through the pillar, and to opening 78 of stop pin casing 73.

While the preceding operations have been going on, stop pin 72 has been up, so as to lock table 3 in position, being sustained by reason of the unequal pressure of air upon the pistons 74 and 75, as it enters between -said pistonsthrough opening 76 and main pipe l136. Air from pipe 136 has, consequently, been free to pass through the stop pin casing and opening 77 therein and to fill pipe 159 (keepin piston 26 at its left end limit), pipe 160 keepin piston 125 at its upper limit), pi e 171 keeping piston 24, for closing the b ow mold at the second station, at its left end limit), and pipes 177, 178 and 175 (keeping piston 86 at its left end limit).

Owing to the unequal diameters of pistons' 7 4 and 75, air entering opening 78 from pipe 155 will now depress the stop pin 72, thus cutting off the passage of air through its casing from pipe 136. This will permit cylinder 87 to exhaust through pipes 17 5, 176, 177 1 58 and exhaust opening 79; similarly the cylinder of piston 26 Will exhaust through pipes 159 and 158. The cylinder of 'piston 125 willexhaust, through pipe 171 to pipe 160; and the cylinder of piston 125 will exhaust through pipe 160.

Simultaneously air through 4,0,`

., pipe 169 will enter the cylinder of piston 24 and push it to lthe rightv while air through branch 170 will enter the cylinder of piston 125 so as to drag supporting spindle 121, against the pull of 180, traction pin 80 will rise and engage balancing lever`127, down below plate 25.

, Air being now cut off from pipes 179 and i p table 3. The piston of bottom control valve 'I 'and thence by passage 210 to 161, also, will rise so as to permit air from main pipe 136 to flow `through the valve and out at pipe 162 into pipe 163 to opening 53 As soon as plunger 48 reaches its bottom llimit, so that it is wholly below table 3, the

i pipe 155 also'passes down branch pilpe 182 toopening 183 'of central rotary va ve 70, oove 211 and to the twoy passages 212, an' 212b opening stations thus forcing back said locking pins and freeing the corresponding plates 7.

As soon as piston 86 has passed opening 91 in cylinder 87, air will ass out through pipe 156 and up through t e central pillar to the end of top control valve 147 where it will push piston 213 inwardly so as to move ball 214 and hence piston 209 to the left. This will cut off the How of air throughithe valve to pip'e 155 so that stop pin 72 will again rise and lock the table as soon as the latter has moved through 90.

As the filled molds move with the table from the rst to the second station, the plate 7 which supports these molds will be turned through 180 by reason of the rolling of gear 9 upon gear 10; the molds will reach the second station, therefore, in upright position. Air from pipe 160, through pipe 174, up through central pillar and down to central valve 70, will now pass through passages 214, 215, 216 and 217 in said valve, through pipe 187 and passage 191 in vertical revolvin valve 17 and passage from open ing 19 1n the revolving block 196 of said valve (block 196 has now revolved through 180o from position of Fig. 14) to the outside of piston 12 which it will force back so as to open the blank mold; this, as previously explained, will result, through wedge 201, pins 202 and 203, and lever 204, in opening valve 205. I

Air from pipe 171 will now pass through valve 205 into cylinder of piston 24 which it will force to the left so as to move slide 22 outwardly and through toggles 21, close the blow molds. l3iston 125 1s simultaneously `pushed up by air through pipe 160 to the the late by the balancing lever 127 and the mold bottom 29 consequently pushed up against the bottle blank.

As the two halves of the blow mol'd reach their closed position one of them will strike pin 135 of mounting 55 and open valve 134; air from pipe 186 to central valve 70 will thus pass through passages 218, filling groove 219, and 220 in said valve and out -through pipe 190 to vertical valve 17;

through passage 194 in said valve and the axial assage of fixed block 196 to pipe 131', and tiiencethrough passages 131, and 129 into the neck end of the bottle blank, where it will blow downinto the plastic blank and cause it to ll out into the blow mold and take the form of the completed bottle. Neck inishing head 54 is, as previously pointed out, held -in the bottom of the recess of mounting 55 during this and eve operation, except during the origina filling other# ion air for blowing has unimpeded access to the interior of the neck.

Another pair of neck 'and blank molds being filled at the first station, table 3 is caused to rotate lthrough another 90, thus carrying the set of molds originally considered from the second to the third station. During this movement the neck and blank molds both remain closed, and the blowing pressure within `the bottle, by reason of passage 220 remaining in. communication with roove 219, will also remain closed until ]ust before the molds reach the third station.

At the third station air from pipe 139 enters central valve 70, passes through passage 219, and fills groove 220, and passage 221; thence it goes through passage 223 and pipe 188 tovertical valve 17 which it traverses through passage 192 and the passage in cone leading to opening 18 in front of neck mold piston. The neck molds are, consequently, opened.

After a third set of molds is filled, the molds now at the third station are carried to the fourth station. Here they are opened by button 27 engaging with pin 23 and moving it inwardly, as plston 26 is correspondingly moved by air through stop pin case and pipe 159, after stop' pin 72 has again locked the table, as already explained.

The completed bottle may now be removed.

After a filling of the fourth, and last, set ofV molds, the molds now at the fourth station will return tothe first station. Just as they are leavingthe fourth station, lever 30 is carried into engagement with fixed arm 31 and mold bottom 29 is thrown outwardly from operative to non-operative position.V l

Also, just after the molds have left the fourth station, air entering valve 70 from pipe 139 and filling passage 223 and groove,f

225, and thence to go by passalge 226 to pipe 189 and 224, will be able to enter pass passage 193 of valve to groove 197 of said valve, and finally to openings 15, 16, at the rear respectively of istons 11 and 12; neck mold and blank mol will thus be closed.v l

Having described my invention, I claim- 1. In va bottle making machine, an invertedmold vfor receiving the molten glass, shears above said mold for removing the excess glass, a downwardly movable plunger provided with a bottom finishing head, means for operating said 1unger,independ ent means for rotating said bottom finishing head, and a piston for operating said shears,

said piston controlling both said plunger.

operating means and saidv head vrotating means.

witnesses.

2. In a bottle making machine, an inverted mold for receiving the molten glass, shears above said mold for removing the ex- ,cess glass, a downwardly movable plunger provided with a bottom finishing head, means for operating said plunger, independ- -ent means controlled by said plunger for rotating said bottom finishing head, and a piston for operating said shears, said piston controlling said plunger operating means.

3. -In a bottle making machine, an inverted mold for receiving the molten glass, shears above said mold for removing the excess glass, a downwardly movable plunger vertically in line with said mold and shears provided with a bottom finishing head, a piston for operating said plunger, a-ir pipes for suppl ing air to said plunger operating piston and a piston for operating said shears, said iston serving as a valve to regulate the suppl) of air to said air pipes.

4. n a bottle making machine, an inverted mold for receiving the molten glass, shears above said mold for removing the excess glass, a downwardly movable plunger provided with a bottom finishing head, av

neck finishing head, means for operating said"shears,and means controlled by" said shear 'operating means for both 'operating laiddplunger and rotating said neck finishing ea 5. In a glass-working machine, the com-i turning said cylindrical carrier upon its axis to invert the-mold.

6. In a glass-working machine,the combination of a pedestal, a mold carrier journaled 'thereon and axially fixed with reference thereto, a mold including two swinging mating members pivotally mounted upon the moldV carrier upon an axis lying at an angle to the axis of .the mold carrier, an actuatin member recprocably mounted within t e journal portion ofthe mold carrier, and connections between said actuating member and the movable mold members.

In testimony whereof I have hereunto set my hand in the presence of twoy subscribing oHaRLEs-Ffoox.

' Witnesses: i

LILLIAN S. Bam.,- E'rmin C. PnA'i'rs. 

